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The role of internal feedbacks in sustaining multi-centennial variability of the Atlantic Meridional Overturning Circulation revealed by EC-Earth3-LR simulations

Ning Cao, Qiong Zhang, Katherine Power, Frederik Schenk, Klaus Wyser, Haijun Yang

2023Earth and Planetary Science Letters10 citationsDOIOpen Access PDF

Abstract

A significant multi-centennial climate variability with a distinct peak at approximately 200 years is observed in a pre-industrial (PI) control simulation using the EC-Earth3-LR climate model. This oscillation originates predominately from the North Atlantic and displays a strong association with the Atlantic Meridional Overturning Circulation (AMOC). Our study identifies the interplay between salinity advection feedback and vertical mixing in the subpolar North Atlantic as key roles in providing the continues internal energy source to maintain this multi-centennial oscillation. The perturbation flow of mean subtropical-subpolar salinity gradients serves as positive feedback to sustain the AMOC anomaly, while the mean advection of salinity anomalies and the vertical mixing or convection acts as negative feedback, constraining the AMOC anomaly. Notably, this low-frequency variability persists even in a warmer climate with weakened AMOC, emphasizing the robustness of the salinity advection feedback mechanism.

Topics & Concepts

AdvectionThermohaline circulationCentennialGeologyClimatologyConvectionPerturbation (astronomy)SalinityZonal and meridionalSubtropicsConvective mixingOcean currentOceanographyMeteorologyGeographyBiologyFisheryQuantum mechanicsThermodynamicsArchaeologyPhysicsGeology and Paleoclimatology ResearchClimate variability and modelsOceanographic and Atmospheric Processes
The role of internal feedbacks in sustaining multi-centennial variability of the Atlantic Meridional Overturning Circulation revealed by EC-Earth3-LR simulations | Litcius